ACCUMULATION OF POTENTIALLY TOXIC ELEMENTS BY SHEEP GIVEN DIETS CONTAINING SOIL AND SEWAGE-SLUDGE - 1 - EFFECT OF TYPE OF SOIL AND LEVEL OFSEWAGE-SLUDGE IN THE DIET

Increasing amounts of sewage sludge will be applied to agricultural la nd over the next 10 years as a result of the prohibition of its dispos al to the sea. The addition of potentially toxic elements (PTEs) to th e soil via sewage sludge is controlled by European legislation designe d to limit the accumulation of PTEs in soil which could give rise to t oxicity to plants or livestock. However the possibility exists that di rect ingestion of sewage sludge and soil together with grazed herbage may result in accumulation of PTEs in body tissues. To assess the exte nt of accumulation of PTEs by direct ingestion of soil and savage slud ge 12 groups of housed weaned lambs were given diets ad libitum compri sing dried grass (900 g/kg total diet dry matter (DM)) and three diffe rent soils (100 g/kg total diet DM). Soil wits replaced by dried diges ted sewage sludge at levels of 0 (level 0), 75 (level 1), 150 (level 2 ) and 300 g/kg soil DM (level 3). Voluntary intake of DM was markedly depressed by the inclusion of sewage sludge in the diet (on average by 24 g DM per g sewage sludge DM addition). There was no effect of sewa ge sludge on diet apparent digestibility. Live-weight gain was depress ed (P < 0.001) by the addition of sewage sludge to the diet from 236 g /day (level 0) to 141 g/day (level 3). Liver and kidney weights were a lso reduced (P < 0.01). The apparent availability coefficients for Cd, Pb and Cu increased with increasing level of sewage sludge in the die t (P < 0.05), as did their concentrations in the liver and kidney (P < 0.01). Concentrations of Cd and Pb in liver increased from <0.07 mg/k g DM and <0.40 mg/kg DM (level 0) respectively to 0.61 mg/kg DM and 4. 60 mg/kg DM (level 3) respectively at the end of the trial. Similarly the concentrations of Cd and Pb in kidneys increased from 0.19 mg/kg D M and <0.56 mg/kg DM (level 0) respectively to 0.80 mg/kg DM and 7.10 mg/kg DM (level 3) respectively by the end of the trial. No increases were observed in concentrations of Cd or Pb in muscle tissue. The main effect of type of soil on concentrations of PTEs in body tissues was not significant The daily rate of accumulation of Pb in kidney ranged from 1.1 to 51.5 mu g/g daily tissue DM growth during the first 57 day s of the experiment and from 0.33 to 6.78 mu g/g daily tissue DM growt h between day 57 and day 112. A decrease in the second period was also observed for Cd, with accumulation in kidney ranging from 0.31 td 4.4 4 mu g/g daily tissue DM growth during the first 57 days and from 0.21 to 1.44 mu g/g daily tissue DM growth between day 57 and 112. Concent rations of Pb in liver of lambs given the highest level of sludge appr oached the statutory limit set for human food. The results indicate th at in relation to accumulation of PTEs in liver and kidney there would appear to be little margin of safety with respect to the current Unit ed Kingdom statutory limits far the concentrations of Cd and Pb in slu dge-amended soils. Confirmation of these results is required in the gr azing situation.